An optical disk has address recording sections each of which has a wobbled part of one of side walls of a groove. Each address recording section is formed by providing convexes of a groove in an adjacent land so as to widen the groove. With the wobbles thus provided in a concavo-convex form, address information is recorded. Besides, the address recording sections thus provided in the grooves are linearly disposed in radial directions of the optical disk. By thus arranging the optical disk on whose grooves and/or lands information is recorded, mixing of wobble frequency components in reproduced information signals does not occur, the sector method is applicable to the optical disk, and information signals of high quality can be obtained.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An optical recording medium, having a plurality of lands and grooves between the lands, each of the lands and the grooves serving as a track on which a light beam is projected for recording, reproducing and erasing information, wherein: each track has a plurality of dispersive wobble sections so that address information is recorded in each wobble section, said each wobble section having a one-side-wobble region in which only one side wall wobbles; each one-side wobble region has a land-side amplitude a and a groove side amplitude b which are identical with each other; and a DC component of an address signal itself stored in the one-side-wobble region is zero (0).
2. The optical recording medium as set forth in claim 1, wherein each wobble section has only one one-side-wobble region.
3. The optical recording medium as set forth in claim 1, wherein: said optical recording medium is an optical disk; and said plurality of dispersive wobble sections provided on the tracks on said optical disk are linearly disposed in a radial direction of said optical disk.
4. The optical recording medium as set forth in claim 1, wherein: said optical recording medium is an optical disk; and said plurality of dispersive wobble sections provided on adjacent tracks are disposed at respective positions in different directions from a center of said optical disk.
5. The optical recording medium as set forth in claim 1, wherein: in said each wobble section, the wobbled side wall is wobbled in a direction orthogonal to a lengthwise direction of the track so the side wall is shaped in a concave-convex form.
6. The optical recording medium as set forth in claim 5, wherein in said each wobble section the groove has a plurality of convexes, which constitute a plurality of concaves of the land.
7. The optical recording medium as set forth in claim 5, wherein in said each wobble section the land has a plurality of convexes, which constitute a plurality of concaves of the groove.
8. The optical recording medium as set forth in claim 5, wherein in said each wobble section the land has a plurality of convexes and concaves, which constitute a plurality of concaves and convexes of the groove respectively.
9. The optical recording medium as set forth in claim 1, wherein information is recorded, reproduced, and erased on both the grooves and the lands.
10. The optical recording medium as set forth in claim 1, wherein said each wobble section has a wobble amplitude of 5 percent to 50 percent of a groove width.
11. The optical recording medium as set forth in claim 1, wherein in said each wobble section, one of side walls of either the groove or the land is curving in a direction orthogonal to a lengthwise direction of the track.
12. The optical recording medium as set forth in claim 1, further comprising: a substrate having an index of refraction of n, said plurality of dispersive wobble sections being provided on said substrate, wherein: a groove depth in said substrate is set in a vicinity of .lambda./6n, where .lambda. is a recording wavelength.
13. The optical recording medium as set forth in claim 1, further comprising: a substrate having an index of refraction of n, said plurality of dispersive wobble sections being provided on said substrate, wherein: a groove depth in said substrate is set in a vicinity of .lambda./8n, where .lambda. is a recording wavelength.
14. The optical recording medium as set forth in claim 1, further comprising: a substrate having an index of refraction of n, said plurality of dispersive wobble sections being provided on said substrate, wherein: a groove depth in said substrate is set in a vicinity of .lambda./10n, where .lambda. is a recording wavelength.
15. The optical recording medium as set forth in claim 1, further comprising: a substrate having an index of refraction of n, said plurality of dispersive wobble sections being provided on said substrate, wherein: a groove depth in said substrate is set not less than .lambda./3n, where .lambda. is a recording wavelength.
16. The optical recording medium as set forth in claim 1, further comprising: a substrate on which said plurality of wobble sections are provided; a magneto-optical recording layer used for carrying out magneto-optical recording, the magneto-optical recording layer being provided on said substrate; and an overcoat layer provided on said magneto-optical recording layer.
17. The optical recording medium as set forth in claim 1, further comprising: a substrate on which said plurality of wobble sections are provided; a phase-change-type layer used for carrying out phase-change-type recording, said phase-change-type layer being provided on said substrate; and an overcoat layer provided on said phase-change-type layer.
18. An optical recording medium, having a plurality of lands and grooves between the lands, each of the lands and the grooves serving as a track on which a light beam is projected for recording, reproducing and erasing information, wherein each track has: a plurality of information recording sections; a plurality of one-side-wobble regions, said each one-side-wobble region being positioned between said information recording sections so that address information is recorded in each one-side-wobble region in which only one side wall wobbles; and wherein each one-side wobble region has a land-side amplitude a and a groove side amplitude b which are identical with each other, and wherein a DC component of an address signal itself stored in the one-side-wobble region is zero (0).
19. The optical recording medium as set forth in claim 18, wherein there is only one one-side-wobble region between said information recording sections.
20. The optical recording medium as set forth in claim 1, wherein the one-side wobble region has a wobble frequency which is set higher than a response frequency of a tracking servo system.
21. The optical recording medium as set forth in claim 1, wherein the one-side wobble region has a wobble frequency which is set higher than a response frequency of a tracking servo system and lower than a recording frequency.
22. A reproducing method of the optical recording medium as set forth in claim 1, which projects a reproducing light beam so as to reproduce information stored in the optical recording medium based on an intensity of light returned from the optical recording medium, said method comprising the step of: projecting the reproducing light beam in the one-side wobble region so as to trace a line which links points at a center of an average width of the one-side-wobble region.
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December 30, 1999
September 25, 2001
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